///////////////////////////////////////////////////////////////////////////////// // // Copyright (C) 2016 Statoil ASA // // ResInsight is free software: you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // ResInsight is distributed in the hope that it will be useful, but WITHOUT ANY // WARRANTY; without even the implied warranty of MERCHANTABILITY or // FITNESS FOR A PARTICULAR PURPOSE. // // See the GNU General Public License at // for more details. // ///////////////////////////////////////////////////////////////////////////////// #include "RimSummaryCurve.h" #include "RiaCurveMerger.h" #include "RiaDefines.h" #include "RiaGuiApplication.h" #include "RiaPreferences.h" #include "RiaStatisticsTools.h" #include "RifReaderEclipseSummary.h" #include "RimEclipseResultCase.h" #include "RimEnsembleCurveSet.h" #include "RimEnsembleCurveSetCollection.h" #include "RimProject.h" #include "RimSummaryAddress.h" #include "RimSummaryCalculationCollection.h" #include "RimSummaryCase.h" #include "RimSummaryCaseCollection.h" #include "RimSummaryCrossPlot.h" #include "RimSummaryCurveAutoName.h" #include "RimSummaryCurveCollection.h" #include "RimSummaryFilter.h" #include "RimSummaryPlot.h" #include "RimSummaryPlotCollection.h" #include "RimSummaryTimeAxisProperties.h" #include "RimTools.h" #include "RiuPlotMainWindow.h" #include "RiuQwtPlotCurve.h" #include "RiuSummaryCurveDefSelectionDialog.h" #include "cafPdmUiComboBoxEditor.h" #include "cafPdmUiListEditor.h" #include "cafPdmUiPushButtonEditor.h" #include "cafPdmUiTreeOrdering.h" #include "qwt_date.h" #include "qwt_plot.h" #include "cafPdmUiLineEditor.h" #include CAF_PDM_SOURCE_INIT( RimSummaryCurve, "SummaryCurve" ); //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- RimSummaryCurve::RimSummaryCurve() { CAF_PDM_InitObject( "Summary Curve", ":/SummaryCurve16x16.png", "", "" ); // Y Values CAF_PDM_InitFieldNoDefault( &m_yValuesSummaryCase, "SummaryCase", "Case", "", "", "" ); m_yValuesSummaryCase.uiCapability()->setUiTreeChildrenHidden( true ); m_yValuesSummaryCase.uiCapability()->setAutoAddingOptionFromValue( false ); CAF_PDM_InitFieldNoDefault( &m_yValuesSummaryAddressUiField, "SelectedVariableDisplayVar", "Vector", "", "", "" ); m_yValuesSummaryAddressUiField.xmlCapability()->disableIO(); m_yValuesSummaryAddressUiField.uiCapability()->setUiEditorTypeName( caf::PdmUiLineEditor::uiEditorTypeName() ); CAF_PDM_InitFieldNoDefault( &m_yValuesSummaryAddress, "SummaryAddress", "Summary Address", "", "", "" ); m_yValuesSummaryAddress.uiCapability()->setUiHidden( true ); m_yValuesSummaryAddress.uiCapability()->setUiTreeChildrenHidden( true ); CAF_PDM_InitFieldNoDefault( &m_yPushButtonSelectSummaryAddress, "SelectAddress", "", "", "", "" ); caf::PdmUiPushButtonEditor::configureEditorForField( &m_yPushButtonSelectSummaryAddress ); m_yPushButtonSelectSummaryAddress.uiCapability()->setUiLabelPosition( caf::PdmUiItemInfo::HIDDEN ); m_yPushButtonSelectSummaryAddress = false; m_yValuesSummaryAddress = new RimSummaryAddress; // X Values CAF_PDM_InitFieldNoDefault( &m_xValuesSummaryCase, "SummaryCaseX", "Case", "", "", "" ); m_xValuesSummaryCase.uiCapability()->setUiTreeChildrenHidden( true ); m_xValuesSummaryCase.uiCapability()->setAutoAddingOptionFromValue( false ); CAF_PDM_InitFieldNoDefault( &m_xValuesSummaryAddressUiField, "SelectedVariableDisplayVarX", "Vector", "", "", "" ); m_xValuesSummaryAddressUiField.xmlCapability()->disableIO(); m_xValuesSummaryAddressUiField.uiCapability()->setUiEditorTypeName( caf::PdmUiLineEditor::uiEditorTypeName() ); CAF_PDM_InitFieldNoDefault( &m_xValuesSummaryAddress, "SummaryAddressX", "Summary Address", "", "", "" ); m_xValuesSummaryAddress.uiCapability()->setUiHidden( true ); m_xValuesSummaryAddress.uiCapability()->setUiTreeChildrenHidden( true ); CAF_PDM_InitFieldNoDefault( &m_xPushButtonSelectSummaryAddress, "SelectAddressX", "", "", "", "" ); caf::PdmUiPushButtonEditor::configureEditorForField( &m_xPushButtonSelectSummaryAddress ); m_xPushButtonSelectSummaryAddress.uiCapability()->setUiLabelPosition( caf::PdmUiItemInfo::HIDDEN ); m_xPushButtonSelectSummaryAddress = false; m_xValuesSummaryAddress = new RimSummaryAddress; // Other members CAF_PDM_InitFieldNoDefault( &m_plotAxis, "PlotAxis", "Axis", "", "", "" ); CAF_PDM_InitFieldNoDefault( &m_curveNameConfig, "SummaryCurveNameConfig", "SummaryCurveNameConfig", "", "", "" ); m_curveNameConfig.uiCapability()->setUiHidden( true ); m_curveNameConfig.uiCapability()->setUiTreeChildrenHidden( true ); m_curveNameConfig = new RimSummaryCurveAutoName; CAF_PDM_InitField( &m_isTopZWithinCategory, "isTopZWithinCategory", false, "", "", "", "" ); m_isTopZWithinCategory.uiCapability()->setUiHidden( true ); m_symbolSkipPixelDistance = 10.0f; m_curveThickness = 2; CAF_PDM_InitFieldNoDefault( &m_yValuesSummaryFilter_OBSOLETE, "VarListFilter", "Filter", "", "", "" ); m_yValuesSummaryFilter_OBSOLETE.uiCapability()->setUiTreeChildrenHidden( true ); m_yValuesSummaryFilter_OBSOLETE.uiCapability()->setUiHidden( true ); m_yValuesSummaryFilter_OBSOLETE.xmlCapability()->setIOWritable( false ); m_yValuesSummaryFilter_OBSOLETE = new RimSummaryFilter; CAF_PDM_InitFieldNoDefault( &m_xValuesSummaryFilter_OBSOLETE, "VarListFilterX", "Filter", "", "", "" ); m_xValuesSummaryFilter_OBSOLETE.uiCapability()->setUiTreeChildrenHidden( true ); m_xValuesSummaryFilter_OBSOLETE.uiCapability()->setUiHidden( true ); m_xValuesSummaryFilter_OBSOLETE.xmlCapability()->setIOWritable( false ); m_xValuesSummaryFilter_OBSOLETE = new RimSummaryFilter; } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- RimSummaryCurve::~RimSummaryCurve() {} //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RimSummaryCurve::setSummaryCaseY( RimSummaryCase* sumCase ) { if ( m_yValuesSummaryCase != sumCase ) { m_qwtPlotCurve->clearErrorBars(); } m_yValuesSummaryCase = sumCase; } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- RimSummaryCase* RimSummaryCurve::summaryCaseY() const { return m_yValuesSummaryCase(); } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- RifEclipseSummaryAddress RimSummaryCurve::summaryAddressX() const { return m_xValuesSummaryAddress->address(); } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RimSummaryCurve::setSummaryAddressX( const RifEclipseSummaryAddress& address ) { m_xValuesSummaryAddress->setAddress( address ); // TODO: Should interpolation be computed similar to RimSummaryCurve::setSummaryAddressY } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- RifEclipseSummaryAddress RimSummaryCurve::summaryAddressY() const { return m_yValuesSummaryAddress->address(); } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RimSummaryCurve::setSummaryAddressYAndApplyInterpolation( const RifEclipseSummaryAddress& address ) { setSummaryAddressY( address ); calculateCurveInterpolationFromAddress(); } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RimSummaryCurve::setSummaryAddressY( const RifEclipseSummaryAddress& address ) { if ( m_yValuesSummaryAddress->address() != address ) { m_qwtPlotCurve->clearErrorBars(); } m_yValuesSummaryAddress->setAddress( address ); } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- std::string RimSummaryCurve::unitNameY() const { RifSummaryReaderInterface* reader = valuesSummaryReaderY(); if ( reader ) return reader->unitName( this->summaryAddressY() ); return ""; } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- std::string RimSummaryCurve::unitNameX() const { RifSummaryReaderInterface* reader = valuesSummaryReaderX(); if ( reader ) return reader->unitName( this->summaryAddressX() ); return ""; } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- std::vector RimSummaryCurve::valuesY() const { std::vector values; RifSummaryReaderInterface* reader = valuesSummaryReaderY(); if ( !reader ) return values; RifEclipseSummaryAddress addr = m_yValuesSummaryAddress()->address(); reader->values( addr, &values ); RimSummaryPlot* plot = nullptr; firstAncestorOrThisOfTypeAsserted( plot ); bool isNormalized = plot->isNormalizationEnabled(); if ( isNormalized ) { auto minMaxPair = std::minmax_element( values.begin(), values.end() ); double min = *minMaxPair.first; double max = *minMaxPair.second; double range = max - min; for ( double& v : values ) { v = ( v - min ) / range; } } return values; } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- RifEclipseSummaryAddress RimSummaryCurve::errorSummaryAddressY() const { auto addr = summaryAddressY(); addr.setAsErrorResult(); return addr; } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- std::vector RimSummaryCurve::errorValuesY() const { std::vector values; RifSummaryReaderInterface* reader = valuesSummaryReaderY(); if ( !reader ) return values; RifEclipseSummaryAddress addr = errorSummaryAddressY(); if ( reader->hasAddress( addr ) ) { reader->values( addr, &values ); } return values; } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- std::vector RimSummaryCurve::valuesX() const { std::vector values; if ( m_xValuesSummaryCase() && m_xValuesSummaryCase()->summaryReader() ) { RifSummaryReaderInterface* reader = m_xValuesSummaryCase()->summaryReader(); RifEclipseSummaryAddress addr = m_xValuesSummaryAddress()->address(); reader->values( addr, &values ); } return values; } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- const std::vector& RimSummaryCurve::timeStepsY() const { static std::vector emptyVector; RifSummaryReaderInterface* reader = valuesSummaryReaderY(); if ( !reader ) return emptyVector; RifEclipseSummaryAddress addr = m_yValuesSummaryAddress()->address(); return reader->timeSteps( addr ); } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RimSummaryCurve::setSummaryCaseX( RimSummaryCase* sumCase ) { m_xValuesSummaryCase = sumCase; } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- RimSummaryCase* RimSummaryCurve::summaryCaseX() const { return m_xValuesSummaryCase(); } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RimSummaryCurve::setLeftOrRightAxisY( RiaDefines::PlotAxis plotAxis ) { m_plotAxis = plotAxis; } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- RiaDefines::PlotAxis RimSummaryCurve::axisY() const { return m_plotAxis(); } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- QList RimSummaryCurve::calculateValueOptions( const caf::PdmFieldHandle* fieldNeedingOptions, bool* useOptionsOnly ) { QList options = this->RimPlotCurve::calculateValueOptions( fieldNeedingOptions, useOptionsOnly ); if ( !options.isEmpty() ) return options; if ( fieldNeedingOptions == &m_yValuesSummaryCase || fieldNeedingOptions == &m_xValuesSummaryCase ) { RimProject* proj = RiaApplication::instance()->project(); std::vector cases = proj->allSummaryCases(); cases.push_back( proj->calculationCollection->calculationSummaryCase() ); for ( RimSummaryCase* rimCase : cases ) { options.push_back( caf::PdmOptionItemInfo( rimCase->caseName(), rimCase ) ); } if ( options.size() > 0 ) { options.push_front( caf::PdmOptionItemInfo( "None", nullptr ) ); } } else if ( &m_yValuesSummaryAddressUiField == fieldNeedingOptions ) { appendOptionItemsForSummaryAddresses( &options, m_yValuesSummaryCase(), nullptr ); } else if ( &m_xValuesSummaryAddressUiField == fieldNeedingOptions ) { appendOptionItemsForSummaryAddresses( &options, m_xValuesSummaryCase(), nullptr ); } return options; } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- QString RimSummaryCurve::createCurveAutoName() { RimSummaryPlot* plot = nullptr; firstAncestorOrThisOfTypeAsserted( plot ); const RimSummaryPlotNameHelper* nameHelper = plot->activePlotTitleHelperAllCurves(); QString curveName = m_curveNameConfig->curveNameY( m_yValuesSummaryAddress->address(), nameHelper ); if ( curveName.isEmpty() ) { curveName = m_curveNameConfig->curveNameY( m_yValuesSummaryAddress->address(), nullptr ); } if ( isCrossPlotCurve() ) { QString curveNameX = m_curveNameConfig->curveNameX( m_xValuesSummaryAddress->address(), nameHelper ); if ( curveNameX.isEmpty() ) { curveNameX = m_curveNameConfig->curveNameX( m_xValuesSummaryAddress->address(), nullptr ); } if ( !curveName.isEmpty() || !curveNameX.isEmpty() ) { curveName += " | " + curveNameX; } } if ( curveName.isEmpty() ) { curveName = "Curve Name Placeholder"; } return curveName; } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RimSummaryCurve::updateZoomInParentPlot() { RimSummaryPlot* plot = nullptr; firstAncestorOrThisOfTypeAsserted( plot ); plot->updateZoomInQwt(); } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RimSummaryCurve::onLoadDataAndUpdate( bool updateParentPlot ) { this->RimPlotCurve::updateCurvePresentation( updateParentPlot ); m_yValuesSummaryAddressUiField = m_yValuesSummaryAddress->address(); m_xValuesSummaryAddressUiField = m_xValuesSummaryAddress->address(); updateConnectedEditors(); setZIndexFromCurveInfo(); if ( isCurveVisible() ) { std::vector curveValuesY = this->valuesY(); RimSummaryPlot* plot = nullptr; firstAncestorOrThisOfTypeAsserted( plot ); bool isLogCurve = plot->isLogarithmicScaleEnabled( this->axisY() ); bool shouldPopulateViewWithEmptyData = false; if ( isCrossPlotCurve() ) { auto curveValuesX = this->valuesX(); auto curveTimeStepsX = timeStepsX(); auto curveTimeStepsY = timeStepsY(); if ( curveValuesY.empty() || curveValuesX.empty() ) { shouldPopulateViewWithEmptyData = true; } else { RiaTimeHistoryCurveMerger curveMerger; curveMerger.addCurveData( curveTimeStepsX, curveValuesX ); curveMerger.addCurveData( curveTimeStepsY, curveValuesY ); curveMerger.computeInterpolatedValues(); if ( curveMerger.allXValues().size() > 0 ) { m_qwtPlotCurve->setSamplesFromXValuesAndYValues( curveMerger.interpolatedYValuesForAllXValues( 0 ), curveMerger.interpolatedYValuesForAllXValues( 1 ), isLogCurve ); } else { shouldPopulateViewWithEmptyData = true; } } } else { std::vector curveTimeStepsY = this->timeStepsY(); if ( curveTimeStepsY.size() > 0 && curveTimeStepsY.size() == curveValuesY.size() ) { if ( plot->timeAxisProperties()->timeMode() == RimSummaryTimeAxisProperties::DATE ) { auto reader = summaryCaseY()->summaryReader(); if (reader) { auto errAddress = reader->errorAddress(summaryAddressY()); if (errAddress.isValid()) { std::vector errValues; reader->values(errAddress, &errValues); m_qwtPlotCurve->setSamplesFromTimeTAndYValues(curveTimeStepsY, curveValuesY, errValues, isLogCurve); } else { m_qwtPlotCurve->setSamplesFromTimeTAndYValues(curveTimeStepsY, curveValuesY, isLogCurve); } } } else { double timeScale = plot->timeAxisProperties()->fromTimeTToDisplayUnitScale(); std::vector timeFromSimulationStart; if ( curveTimeStepsY.size() ) { time_t startDate = curveTimeStepsY[0]; for ( const auto& date : curveTimeStepsY ) { timeFromSimulationStart.push_back( timeScale * ( date - startDate ) ); } } m_qwtPlotCurve->setSamplesFromXValuesAndYValues( timeFromSimulationStart, curveValuesY, isLogCurve ); } } else { shouldPopulateViewWithEmptyData = true; } } if ( shouldPopulateViewWithEmptyData ) { m_qwtPlotCurve->setSamplesFromXValuesAndYValues( std::vector(), std::vector(), isLogCurve ); } if ( updateParentPlot && m_parentQwtPlot ) { updateZoomInParentPlot(); m_parentQwtPlot->replot(); } m_qwtPlotCurve->showErrorBars( m_showErrorBars ); } if ( updateParentPlot ) updateQwtPlotAxis(); } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RimSummaryCurve::updateLegendsInPlot() { RimSummaryPlot* plot = nullptr; firstAncestorOrThisOfTypeAsserted( plot ); plot->updateAllLegendItems(); } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RimSummaryCurve::defineUiTreeOrdering( caf::PdmUiTreeOrdering& uiTreeOrdering, QString uiConfigName /*= ""*/ ) { RimPlotCurve::defineUiTreeOrdering( uiTreeOrdering, uiConfigName ); // Reset dynamic icon this->setUiIcon( caf::QIconProvider() ); // Get static one caf::QIconProvider iconProvider = this->uiIconProvider(); if ( iconProvider.isNull() ) return; QIcon icon = iconProvider.icon(); RimSummaryCurveCollection* coll = nullptr; this->firstAncestorOrThisOfType( coll ); if ( coll && coll->curveForSourceStepping() == this ) { QPixmap combined = icon.pixmap( 16, 16 ); QPainter painter( &combined ); QPixmap updownpixmap( ":/StepUpDownCorner16x16.png" ); painter.drawPixmap( 0, 0, updownpixmap ); iconProvider.setPixmap( combined ); setUiIcon( iconProvider ); } } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RimSummaryCurve::defineEditorAttribute( const caf::PdmFieldHandle* field, QString uiConfigName, caf::PdmUiEditorAttribute* attribute ) { if ( &m_yPushButtonSelectSummaryAddress == field || &m_xPushButtonSelectSummaryAddress == field ) { caf::PdmUiPushButtonEditorAttribute* attrib = dynamic_cast( attribute ); if ( attrib ) { attrib->m_buttonText = "..."; } } if ( &m_yValuesSummaryAddressUiField == field || &m_xValuesSummaryAddressUiField == field ) { auto* attrib = dynamic_cast( attribute ); if ( attrib ) { attrib->completerCaseSensitivity = Qt::CaseInsensitive; } } } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RimSummaryCurve::defineUiOrdering( QString uiConfigName, caf::PdmUiOrdering& uiOrdering ) { RimPlotCurve::updateOptionSensitivity(); { QString curveDataGroupName = "Summary Vector"; if ( isCrossPlotCurve() ) curveDataGroupName += " Y"; caf::PdmUiGroup* curveDataGroup = uiOrdering.addNewGroupWithKeyword( curveDataGroupName, "Summary Vector Y" ); curveDataGroup->add( &m_yValuesSummaryCase, {true, 3, 1} ); curveDataGroup->add( &m_yValuesSummaryAddressUiField, {true, 2, 1} ); curveDataGroup->add( &m_yPushButtonSelectSummaryAddress, {false, 1, 0} ); curveDataGroup->add( &m_plotAxis, {true, 3, 1} ); if ( isCrossPlotCurve() ) m_showErrorBars = false; else curveDataGroup->add( &m_showErrorBars ); } if ( isCrossPlotCurve() ) { caf::PdmUiGroup* curveDataGroup = uiOrdering.addNewGroup( "Summary Vector X" ); curveDataGroup->add( &m_xValuesSummaryCase, {true, 3, 1} ); curveDataGroup->add( &m_xValuesSummaryAddressUiField, {true, 2, 1} ); curveDataGroup->add( &m_xPushButtonSelectSummaryAddress, {false, 1, 0} ); } caf::PdmUiGroup* appearanceGroup = uiOrdering.addNewGroup( "Appearance" ); RimPlotCurve::appearanceUiOrdering( *appearanceGroup ); caf::PdmUiGroup* nameGroup = uiOrdering.addNewGroup( "Curve Name" ); nameGroup->setCollapsedByDefault( true ); nameGroup->add( &m_showLegend ); RimPlotCurve::curveNameUiOrdering( *nameGroup ); if ( m_isUsingAutoName ) { m_curveNameConfig->uiOrdering( uiConfigName, *nameGroup ); } uiOrdering.skipRemainingFields(); // For now. } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RimSummaryCurve::appendOptionItemsForSummaryAddresses( QList* options, RimSummaryCase* summaryCase, RimSummaryFilter* summaryFilter ) { if ( summaryCase ) { RifSummaryReaderInterface* reader = summaryCase->summaryReader(); if ( reader ) { const std::set allAddresses = reader->allResultAddresses(); for ( auto& address : allAddresses ) { if ( address.isErrorResult() ) continue; if ( summaryFilter && !summaryFilter->isIncludedByFilter( address ) ) continue; std::string name = address.uiText(); QString s = QString::fromStdString( name ); options->push_back( caf::PdmOptionItemInfo( s, QVariant::fromValue( address ) ) ); } } options->push_front( caf::PdmOptionItemInfo( RiaDefines::undefinedResultName(), QVariant::fromValue( RifEclipseSummaryAddress() ) ) ); } } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RimSummaryCurve::setZIndexFromCurveInfo() { auto sumAddr = summaryAddressY(); auto sumCase = summaryCaseY(); double zOrder = 0.0; if ( sumCase && sumAddr.isValid() ) { if ( sumCase->isObservedData() ) { zOrder = RiuQwtPlotCurve::Z_SINGLE_CURVE_OBSERVED; } else if ( sumAddr.category() == RifEclipseSummaryAddress::SUMMARY_ENSEMBLE_STATISTICS ) { zOrder = RiuQwtPlotCurve::Z_ENSEMBLE_STAT_CURVE; } else if ( sumCase->ensemble() ) { zOrder = RiuQwtPlotCurve::Z_ENSEMBLE_CURVE; } else { zOrder = RiuQwtPlotCurve::Z_SINGLE_CURVE_NON_OBSERVED; } } if ( m_isTopZWithinCategory ) { zOrder += 1.0; } setZOrder( zOrder ); } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RimSummaryCurve::updateQwtPlotAxis() { if ( m_qwtPlotCurve ) { if ( this->axisY() == RiaDefines::PLOT_AXIS_LEFT ) { m_qwtPlotCurve->setYAxis( QwtPlot::yLeft ); } else { m_qwtPlotCurve->setYAxis( QwtPlot::yRight ); } } } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RimSummaryCurve::applyCurveAutoNameSettings( const RimSummaryCurveAutoName& autoNameSettings ) { m_curveNameConfig->applySettings( autoNameSettings ); } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- QString RimSummaryCurve::curveExportDescription( const RifEclipseSummaryAddress& address ) const { auto addr = address.isValid() ? address : m_yValuesSummaryAddress->address(); RimEnsembleCurveSetCollection* coll; firstAncestorOrThisOfType( coll ); auto curveSet = coll ? coll->findRimCurveSetFromQwtCurve( m_qwtPlotCurve ) : nullptr; auto group = curveSet ? curveSet->summaryCaseCollection() : nullptr; auto addressUiText = addr.uiText(); if ( addr.category() == RifEclipseSummaryAddress::SUMMARY_ENSEMBLE_STATISTICS ) { addressUiText = RiaStatisticsTools::replacePercentileByPValueText( QString::fromStdString( addressUiText ) ) .toStdString(); } if ( group && group->isEnsemble() ) { return QString( "%1.%2.%3" ) .arg( QString::fromStdString( addressUiText ) ) .arg( m_yValuesSummaryCase->caseName() ) .arg( group->name() ); } else { return QString( "%1.%2" ).arg( QString::fromStdString( addressUiText ) ).arg( m_yValuesSummaryCase->caseName() ); } } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RimSummaryCurve::setCurveAppearanceFromCaseType() { if ( m_yValuesSummaryCase ) { if ( m_yValuesSummaryCase->isObservedData() ) { setLineStyle( RiuQwtPlotCurve::STYLE_NONE ); setSymbol( RiuQwtSymbol::SYMBOL_XCROSS ); return; } } if ( m_yValuesSummaryAddress && m_yValuesSummaryAddress->address().isHistoryQuantity() ) { RiaPreferences* prefs = RiaApplication::instance()->preferences(); if ( prefs->defaultSummaryHistoryCurveStyle() == RiaPreferences::SYMBOLS ) { setSymbol( RiuQwtSymbol::SYMBOL_XCROSS ); setLineStyle( RiuQwtPlotCurve::STYLE_NONE ); } else if ( prefs->defaultSummaryHistoryCurveStyle() == RiaPreferences::SYMBOLS_AND_LINES ) { setSymbol( RiuQwtSymbol::SYMBOL_XCROSS ); setLineStyle( RiuQwtPlotCurve::STYLE_SOLID ); } else if ( prefs->defaultSummaryHistoryCurveStyle() == RiaPreferences::LINES ) { setSymbol( RiuQwtSymbol::SYMBOL_NONE ); setLineStyle( RiuQwtPlotCurve::STYLE_SOLID ); } return; } } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RimSummaryCurve::markCachedDataForPurge() { auto reader = valuesSummaryReaderY(); if ( reader ) reader->markForCachePurge( m_yValuesSummaryAddress->address() ); } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RimSummaryCurve::setAsTopZWithinCategory( bool enable ) { m_isTopZWithinCategory = enable; } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RimSummaryCurve::fieldChangedByUi( const caf::PdmFieldHandle* changedField, const QVariant& oldValue, const QVariant& newValue ) { this->RimPlotCurve::fieldChangedByUi( changedField, oldValue, newValue ); RimSummaryPlot* plot = nullptr; firstAncestorOrThisOfType( plot ); CVF_ASSERT( plot ); bool loadAndUpdate = false; bool crossPlotTestForMatchingTimeSteps = false; if ( changedField == &m_yValuesSummaryAddressUiField ) { m_yValuesSummaryAddress->setAddress( m_yValuesSummaryAddressUiField() ); this->calculateCurveInterpolationFromAddress(); loadAndUpdate = true; } else if ( changedField == &m_xValuesSummaryAddressUiField ) { m_xValuesSummaryAddress->setAddress( m_xValuesSummaryAddressUiField() ); this->calculateCurveInterpolationFromAddress(); loadAndUpdate = true; } else if ( &m_showCurve == changedField ) { plot->updateAxes(); plot->updatePlotTitle(); plot->updateConnectedEditors(); RiuPlotMainWindow* mainPlotWindow = RiaGuiApplication::instance()->mainPlotWindow(); mainPlotWindow->updateSummaryPlotToolBar(); if ( m_showCurve() == true ) { plot->summaryCurveCollection()->setCurveAsTopZWithinCategory( this ); } } else if ( changedField == &m_plotAxis ) { updateQwtPlotAxis(); plot->updateAxes(); } else if ( changedField == &m_yValuesSummaryCase ) { PdmObjectHandle* oldVal = oldValue.value>().rawPtr(); if ( oldVal == nullptr && m_yValuesSummaryCase->isObservedData() ) { // If no previous case selected and observed data, use symbols to indicate observed data curve setLineStyle( RiuQwtPlotCurve::STYLE_NONE ); setSymbol( RiuQwtSymbol::SYMBOL_XCROSS ); } plot->updateCaseNameHasChanged(); this->onLoadDataAndUpdate( true ); } else if ( changedField == &m_yPushButtonSelectSummaryAddress ) { RiuSummaryCurveDefSelectionDialog dlg( nullptr ); RimSummaryCase* candidateCase = m_yValuesSummaryCase(); RifEclipseSummaryAddress candicateAddress = m_yValuesSummaryAddress->address(); if ( candidateCase == nullptr ) { candidateCase = m_xValuesSummaryCase(); } if ( !candicateAddress.isValid() ) { candicateAddress = m_xValuesSummaryAddress->address(); } dlg.hideEnsembles(); dlg.setCaseAndAddress( candidateCase, candicateAddress ); if ( dlg.exec() == QDialog::Accepted ) { auto curveSelection = dlg.curveSelection(); if ( curveSelection.size() > 0 ) { m_yValuesSummaryCase = curveSelection[0].summaryCase(); m_yValuesSummaryAddress->setAddress( curveSelection[0].summaryAddress() ); crossPlotTestForMatchingTimeSteps = true; loadAndUpdate = true; } } m_yPushButtonSelectSummaryAddress = false; } else if ( changedField == &m_xPushButtonSelectSummaryAddress ) { RiuSummaryCurveDefSelectionDialog dlg( nullptr ); RimSummaryCase* candidateCase = m_xValuesSummaryCase(); RifEclipseSummaryAddress candicateAddress = m_xValuesSummaryAddress->address(); if ( candidateCase == nullptr ) { candidateCase = m_yValuesSummaryCase(); } if ( !candicateAddress.isValid() ) { candicateAddress = m_yValuesSummaryAddress->address(); } dlg.hideEnsembles(); dlg.setCaseAndAddress( candidateCase, candicateAddress ); if ( dlg.exec() == QDialog::Accepted ) { auto curveSelection = dlg.curveSelection(); if ( curveSelection.size() > 0 ) { m_xValuesSummaryCase = curveSelection[0].summaryCase(); m_xValuesSummaryAddress->setAddress( curveSelection[0].summaryAddress() ); crossPlotTestForMatchingTimeSteps = true; loadAndUpdate = true; } } m_xPushButtonSelectSummaryAddress = false; } if ( crossPlotTestForMatchingTimeSteps ) { auto curveValuesX = this->valuesX(); auto curveTimeStepsX = timeStepsX(); auto curveValuesY = this->valuesY(); auto curveTimeStepsY = timeStepsY(); if ( !curveValuesX.empty() && !curveValuesY.empty() ) { RiaTimeHistoryCurveMerger curveMerger; curveMerger.addCurveData( curveTimeStepsX, curveValuesX ); curveMerger.addCurveData( curveTimeStepsY, curveValuesY ); curveMerger.computeInterpolatedValues(); if ( curveMerger.validIntervalsForAllXValues().size() == 0 ) { QString description; { QDateTime first = QDateTime::fromTime_t( curveTimeStepsX.front() ); QDateTime last = QDateTime::fromTime_t( curveTimeStepsX.back() ); std::vector timeSteps; timeSteps.push_back( first ); timeSteps.push_back( last ); QString formatString = RiaQDateTimeTools::createTimeFormatStringFromDates( timeSteps ); description += QString( "Time step range for X : '%1' - '%2'" ) .arg( first.toString( formatString ) ) .arg( last.toString( formatString ) ); } { QDateTime first = QDateTime::fromTime_t( curveTimeStepsY.front() ); QDateTime last = QDateTime::fromTime_t( curveTimeStepsY.back() ); std::vector timeSteps; timeSteps.push_back( first ); timeSteps.push_back( last ); QString formatString = RiaQDateTimeTools::createTimeFormatStringFromDates( timeSteps ); description += "\n"; description += QString( "Time step range for Y : '%1' - '%2'" ) .arg( first.toString( formatString ) ) .arg( last.toString( formatString ) ); } QMessageBox::warning( nullptr, "Detected no overlapping time steps", description ); } } } if ( loadAndUpdate ) { this->loadDataAndUpdate( true ); plot->updateAxes(); plot->updatePlotTitle(); plot->updateConnectedEditors(); RiuPlotMainWindow* mainPlotWindow = RiaGuiApplication::instance()->mainPlotWindow(); mainPlotWindow->updateSummaryPlotToolBar(); } if ( &m_showCurve == changedField ) { // If no plot collection is found, we assume that we are inside a curve creator // Update the summary curve collection to make sure the curve names are updated in curve creator UI RimSummaryPlotCollection* plotCollection = nullptr; this->firstAncestorOrThisOfType( plotCollection ); if ( !plotCollection ) { RimSummaryCurveCollection* curveColl = nullptr; this->firstAncestorOrThisOfType( curveColl ); if ( curveColl ) { curveColl->updateConnectedEditors(); } } } } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- RifSummaryReaderInterface* RimSummaryCurve::valuesSummaryReaderX() const { if ( !m_xValuesSummaryCase() ) return nullptr; return m_xValuesSummaryCase()->summaryReader(); } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- RifSummaryReaderInterface* RimSummaryCurve::valuesSummaryReaderY() const { if ( !m_yValuesSummaryCase() ) return nullptr; return m_yValuesSummaryCase()->summaryReader(); } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- const std::vector& RimSummaryCurve::timeStepsX() const { static std::vector emptyVector; RifSummaryReaderInterface* reader = valuesSummaryReaderX(); if ( !reader ) return emptyVector; RifEclipseSummaryAddress addr = m_xValuesSummaryAddress()->address(); return reader->timeSteps( addr ); } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RimSummaryCurve::calculateCurveInterpolationFromAddress() { if ( m_yValuesSummaryAddress() ) { auto address = m_yValuesSummaryAddress()->address(); if ( address.hasAccumulatedData() ) { m_curveInterpolation = RiuQwtPlotCurve::INTERPOLATION_POINT_TO_POINT; } else { m_curveInterpolation = RiuQwtPlotCurve::INTERPOLATION_STEP_LEFT; } } }